CN220013450U

CN220013450U - Protruding solar energy luminous reflection spike

Info

Publication number: CN220013450U
Application number: CN202321476131.8U
Authority: CN
Inventors: 方鸣
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-06-10
Filing date: 2023-06-10
Publication date: 2023-11-14
Anticipated expiration: 2033-06-10

Abstract

The utility model provides a protruding solar energy luminous reflection of light spike, including basic shell, transparent embedded upper casing, compound embedded drain pan, the retro-reflector, led luminous body, photovoltaic device, circuit and electronic components, encapsulation glue solidification shaping body, the basic shell is the casing that has vertical upper shed accommodation chamber's main part and its hollow barrel root disjunctor constitutes, compound embedded drain pan is the dysmorphism bottom that its bottom has the root embedding body of protruding down, combine at transparent embedded upper casing bottom through the hot melt composite construction and form the compound embedded casing of disjunctor structure and encapsulate each electronic components in transparent embedded upper casing's accommodation chamber, rethread tolerance cooperation gomphosis is to the accommodation intracavity of basic shell main part and is embedded to the barrel root of basic shell bottom in the bottom of messenger's bottom, then fill the gap between compound embedded casing and the basic shell with encapsulation glue solidification shaping body. The product has stronger compression resistance and impact resistance to vehicles, is not easy to loosen in structure, has better waterproof performance and longer service life.

Description

Protruding solar energy luminous reflection spike

Technical Field

The utility model relates to the field of security equipment, in particular to a raised solar luminous reflective spike.

Background

The spike belongs to the identification category, is mainly installed on the ground, and can provide functions of indication, induction and the like for motor vehicle drivers and pedestrians.

The existing raised road sign mainly comprises reflective spikes, and mainly provides reflective indication and induction for motor vehicle drivers by means of the light of the reflective body reflective vehicle on the raised road sign, and has only reflective function and single function, and poor reflective performance in rainy and snowy weather or heavy fog weather.

For this reason, solar energy luminous reflective spikes have been proposed by combining photovoltaic power generation and Led luminous technologies. The solar luminous reflective spike has a reflective function and a Led luminous function, so that a better indication induction effect can be exerted.

The panel type photovoltaic device of the existing solar luminous reflective spike is arranged below a transparent surface shell, and the transparent surface shell is combined with a flat base shell or a base shell with a root through packaging adhesive. The structure product is simple and easy to operate, has low cost, and has the advantages of being used on common roads, but the defects of the structure are more obvious due to the fact that heavy-duty vehicles or overload vehicles on the existing roads are gradually increased, particularly, looseness is easy to occur between a transparent surface shell and a base shell, and electronic components in the spike are damaged due to water seepage, so that the using function of the spike is seriously affected.

In summary, the existing solar luminous reflective spike has structural defects, especially the defects of poor compression resistance and impact resistance of heavy-load vehicles and overload vehicles and water leakage damage caused by loosening of the structure due to repeated rolling of wheels, and the popularization and the use of the solar luminous reflective spike are seriously influenced. How to solve the above-mentioned defects is an urgent need in the industry.

Disclosure of Invention

Aiming at the defects of the existing solar luminous reflective spike, the structural design of the solar luminous reflective spike is innovated, particularly the assembly and packaging structure of the solar luminous reflective spike are innovated, the compression resistance and impact resistance of the vehicle are stronger, the structure looseness is not easy to be caused by the impact of external force, the waterproof performance is more superior, the service life is longer, and the solar luminous reflective spike is particularly suitable for being used on road sections with heavy load vehicles and overload vehicles:

the LED embedded shell is characterized in that 1, a composite embedded shell with a connected structure is formed at the bottom of a transparent embedded upper shell through a hot melt composite structure, a LED luminous body, a photovoltaic device and other electronic components are pre-packaged in the composite embedded shell with the connected structure, then packaging glue is used for packaging, then a root embedded body at the bottom of the composite embedded shell with the connected structure is embedded in a barrel cavity at the root of a barrel, finally packaging glue is poured in a backward direction from a lower opening of the root of the barrel and is solidified and molded, so that the root embedded body of the composite embedded shell is firmly fixed in the root of the barrel of the base shell, the LED luminous body, the photovoltaic device and other electronic components are not easy to loosen, and the compression resistance and the shock resistance of the LED embedded shell are improved.

2. The side wall of the accommodating cavity of the main body part of the base shell is provided with the stepped inner ring, the periphery of the top of the transparent embedded upper shell is provided with the peripheral pressing edge part corresponding to the stepped body, the transparent embedded upper shell is embedded in the accommodating cavity of the main body part of the base shell during assembly, and the peripheral pressing edge part of the transparent embedded upper shell is pressed on the stepped inner ring of the side wall of the accommodating cavity of the main body part of the base shell to form an embedded pressure-bearing structure, so that the whole compression resistance is improved.

3. The method comprises the steps that a sunk enclosure type glue containing groove is formed in a stepped inner ring, a lower convex enclosure rib corresponding to the glue containing groove is formed in the bottom surface of an outer peripheral type edge pressing part, and a packaging glue curing forming body is arranged between the stepped inner ring and the outer peripheral type edge pressing part and between a transparent embedded upper shell and the side wall of a containing cavity of a main body part of a base shell to form an upper waterproof sealing layer; or the lower waterproof sealing layer is formed by packaging and solidifying two or more packaging adhesives with different hardness (after solidification) or two or more packaging adhesives with different viscosity (in liquid state) respectively from the adhesive filling exhaust hole at the flat bottom and the lower opening of the barrel cavity at the root of the base shell barrel body, so that a double or multiple water seepage prevention protection structure is formed, and the overall waterproof performance is improved.

4. The retroreflector and the Led illuminant of the structure can be arranged in a split way, so that the choice space of the retroreflector material and the structure thereof is larger, and the retroreflector performance of the retroreflector can be improved or the long afterglow illuminant function can be increased.

The specific embodiments of the utility model are: a convex solar luminous reflective spike comprises a base shell (1), a transparent embedded upper shell (2), a composite embedded bottom shell (3), a retroreflector (4), a Led illuminant (5), a photovoltaic device (6), a circuit and an electronic component (7) thereof, and a packaging glue curing forming body (8) (generally formed by curing liquid packaging glue, preferably a silicone packaging glue curing forming body, an epoxy or polyurethane packaging glue curing forming body),

the base shell (1) is a shell structure which is formed by connecting a main body part (1A) and a barrel root part (1B) at the bottom of the main body part and has relatively high structural strength,

the main body part (1A) is a hollow flat shell with a vertical upper opening (or windowing) containing cavity (1A-q), the lower part is large and small, the containing cavity (1A-q) is surrounded by a side wall part of the main body part (1A), the containing cavity (1A-q) is of a ladder cavity structure with a ladder-shaped inner ring (1A-t) on the inner side wall and large and small upper part, the bottom wall (corresponding to the bottom surface or the bottom edge) of the side wall part is large, the top wall (corresponding to the top surface or the top edge) is small, the bottom wall and the top wall are transited through a slope (1A-p), the slope (1A-p) is provided with a containing hole groove (1A-c) with a lateral opening, a reflecting body (4) capable of reflecting laterally is arranged in the containing hole groove (1A-c), the middle part of the bottom surface of the containing cavity (1A-q) is provided with a downward convex root part (1B), the root part (1B) of the barrel is provided with the upper opening (1A-q) and is communicated with the upper cavity (1A-q),

The top periphery of the transparent embedded upper shell (2) is outwards protruded to form a peripheral edge pressing part (2 y) corresponding to the stepped inner ring (1A-t) of the main body part (1A) to form a cavity-shaped shell with a downward opening containing cavity (2 q) and a larger bearing top surface area and a smaller bottom area,

the composite embedded bottom shell (3) is a bottom cover with a root, which is formed by connecting a bottom cover (3A) with a root embedded body (3B) which is provided with a bottom cover (3A) and is downwards convex and has an outer diameter smaller than or equal to the inner diameter of a barrel cavity (1B-q) of a barrel root (1B),

the composite embedded bottom shell (3) is combined at the bottom of the transparent embedded upper shell (2) through a hot melt composite structure to form a composite embedded shell with a connected structure, the composite embedded shell is embedded in the accommodating cavity (1A-q) of the base shell (1) with relatively high structural strength, the root embedded body (3B) of the composite embedded bottom shell (3) is embedded in the barrel cavity (1B-q) of the barrel root (1B),

the top periphery of the transparent embedded upper shell (2) is surrounded by the top periphery, a packaging adhesive curing forming body (8) is arranged between the step-shaped inner ring (1A-t) and the top periphery, between the side wall of the accommodating cavity (1A-q) and the transparent embedded upper shell (2), between the cavity bottom of the accommodating cavity (1A-q) and the bottom cover (3A) of the composite embedded bottom shell (3), between the root embedded body (3B) and the side wall of the barrel root (1B),

The solar light-emitting LED lamp is characterized in that the photovoltaic device (6) is arranged below a top shell of the transparent embedded upper shell (2), the Led light-emitting body (5) is arranged in a containing cavity (2 q) of the transparent embedded upper shell (2) or on the base shell (1), the circuit and the electronic component (7) thereof comprise a control and driving circuit (7 a) and an energy storage element (7B), the control and driving circuit (7 a) and the energy storage element (7B) are arranged in the containing cavity (2 q) of the transparent embedded upper shell (2) or/and a barrel cavity (1B-q) of the barrel root (1B), and the Led light-emitting body (5), the photovoltaic device (6), the circuit and the electronic component (7) thereof are connected into a circuit and are packaged in a spike integral shell formed by a packaging glue curing forming body (8) in the compound embedded shell and the base shell (1) to form a protruding type solar light-emitting spike integral structure with an integral (implantable pavement) barrel root.

Further, an ultrasonic hot-melt composite structure I (2 r) (sometimes called plastic welding and preferably an ultrasonic hot-melt composite convex rib structure) is arranged at the bottom of the side wall of the transparent embedded upper shell (2), an ultrasonic hot-melt composite structure II (3 r) (preferably an ultrasonic hot-melt composite surrounding edge structure) corresponding to the ultrasonic hot-melt composite structure I (2 r) on the transparent embedded upper shell (2) is arranged at the edge part of the bottom cover (3A) of the composite embedded bottom shell (3), and the transparent embedded upper shell (2) is compounded with the composite embedded bottom shell (3) through the ultrasonic hot-melt composite structure I (2 r), the ultrasonic hot-melt composite structure II (3 r) to form a compound embedded shell with a conjoined structure.

Further, the root embedded body (3B) of the downward bulge of the composite embedded bottom shell (3) is a hollow cylinder body with the outer diameter smaller than the inner diameter of the cylinder cavity (1B-q) of the cylinder body root (1B), or is a plurality of discrete arc-shaped vertical walls with the outer diameter smaller than the inner diameter of the cylinder cavity (1B-q) of the cylinder body root (1B) and connected with the top, or is a downward bulge block or a downward bulge cylinder with the outer diameter smaller than the inner diameter of the cylinder cavity (1B-q) of the cylinder body root (1B); the root embedded body (3B) of the composite embedded bottom shell (3) is embedded in the barrel cavity (1B-q) of the barrel root (1B), and the structural package is formed by the package glue curing forming body (8);

wherein, at least the energy storage element (7B) is arranged in the barrel cavity (1B-q) of the barrel root (1B) and is connected with other electronic components into a circuit.

Further, the composite embedded shell is embedded in the accommodating cavity (1A-q) of the base shell (1) through tolerance fit or interference fit, a backward-pouring glue channel (preferably a backward-pouring glue slot, a backward-pouring glue slot and a backward-pouring glue hole) which is formed by backward-pouring the lower opening of the barrel root (1B) is arranged between the composite embedded shell and the base shell (1), and a packaging glue curing forming body (8) is arranged in the backward-pouring glue channel;

or the bottom surface of the main body part (1A) is provided with a through glue pouring vent hole I (1A-k), the bottom cover (3A) of the composite embedded bottom shell (3) is provided with a glue pouring vent hole II (3 k) corresponding to the glue pouring vent hole I (1A-k), a glue pouring channel (preferably a glue pouring slot, a glue pouring slot and a glue pouring hole) and a glue pouring channel formed by the glue pouring vent hole I (1A-k) and the glue pouring vent hole II (3 k) in a backward pouring way are arranged between the composite embedded shell and the base shell (1), and a packaging glue curing forming body (8) is arranged in the glue pouring channel.

Further, the packaging glue curing forming body (8) is a waterproof composite packaging structure formed by packaging and curing packaging glue with two or more different components, or the packaging glue curing forming body (8) is a waterproof composite packaging structure formed by packaging and curing packaging glue with two or more different soft hardness, or the packaging glue curing forming body (8) is a waterproof composite packaging structure formed by packaging and curing packaging glue for two or more times,

or the packaging glue curing forming body (8) is a waterproof composite packaging structure formed by the backward filling and curing of two or more packaging glue with different soft hardness from the lower openings of the first glue filling exhaust hole (1A-k), the second glue filling exhaust hole (3 k) and the barrel cavity (1B-q) of the barrel root (1B) respectively.

Furthermore, the side wall of the accommodating cavity (1A-q) is provided with a concave-convex jogged structure I (1A-h), the side wall of the transparent embedded upper shell (2) is provided with a concave-convex jogged structure II (2 h) which is complementarily corresponding to the concave-convex jogged structure I,

or the stepped inner ring (1A-t) is provided with a sunk enclosure type glue containing groove (1A-a), the enclosure type glue containing groove (1A-a) is internally provided with a packaging glue curing forming body (8), the bottom surface of the edge pressing part (2 y) is provided with a lower convex enclosure rib (2 w) corresponding to the glue containing groove (1A-a) of the stepped inner ring (1A-t),

A glue extrusion groove or a glue extrusion seam is formed between the stepped inner ring (1A-t) and the peripheral type edge pressing part and between the transparent embedded upper shell (2) and the side wall part of the main body part (1A), and a packaging glue curing forming body (8) is arranged in the glue extrusion groove or the glue extrusion seam.

Further, the base shell (1) is of a metal casting structure or a metal forging structure, or the transparent embedded upper shell (2) is of a transparent injection structure, or the composite embedded bottom shell (3) is of an injection structure.

Further, a structure reinforcing baffle (1A-g) is arranged in the opening of the accommodating hole groove (1A-c) and divides the accommodating hole groove (1A-c), and a retro-reflector (4) or a retro-reflector (4) and a long afterglow illuminant (9) are arranged in the dividing of the accommodating hole groove (1A-c);

or the back reflector (4) with long afterglow luminous body (9) and air layer between the long afterglow luminous body (9) is arranged in the accommodation hole groove (1A-c).

Further, the top of the side wall part of the main body part (1A) is provided with a concave part (1A-x), the local area of the top of the transparent embedded upper shell (2) is exposed from the concave part (1A-x) of the top of the main body part (1A) and forms a lateral light emergent channel of the LED luminous body (5) above the side wall of the transparent embedded upper shell (2) and the concave part (1A-x) (serving as a light emergent groove) of the top of the main body part (1A),

Or the Led luminous body (5) is arranged in the accommodating hole groove (1A-c) on the slope (1A-p) of the main body part (1A) or behind the accommodating hole groove (1A-c) and forms a lateral light emergent channel of the Led luminous body (5) through the accommodating hole groove (1A-c) (serving as a light emergent hole), and the Led luminous body (5) is connected with a circuit in the accommodating cavity (2 q) of the transparent embedded upper shell (2) and an electronic component (7) thereof through a lead with redundant length.

Further, the accommodating chambers (1A-q) of the main body portion (1A) are similar or nearly rectangular in plan view,

or the containing cavity (2 q) of the transparent embedded upper shell (2) looks like or approximates to a rectangle in a bottom view,

or the side wall of the accommodating cavity (1A-q) of the main body part (1A) is concaved inwards to form a supporting body (with stronger compressive capacity) which can play a role in strengthening the structure, preferably, the concaved supporting body ensures that the accommodating cavity (1A-q) looks like a hollow I shape in a overlook,

or the side wall of the accommodating cavity (2 q) of the transparent embedded upper shell (2) is concaved inwards to form a supporting body (with stronger compressive capacity) which can play a role in strengthening the structure, preferably, the concaved supporting body ensures that the accommodating cavity (2 q) looks like a hollow I shape in the bottom,

or the accommodating cavity (1A-q) of the main body part (1A) is internally provided with a partition body which can play a role of structural reinforcement and partitions the accommodating cavity (1A-q), preferably the partition body divides the accommodating cavity (1A-q) into a left partition and a right partition and looks like a Chinese character 'ri' in a overlook,

Or a separation body with a structure strengthening effect is arranged in the accommodating cavity (2 q) of the transparent embedded upper shell (2) and divides the accommodating cavity (2 q) into sections, preferably the separation body divides the accommodating cavity (2 q) into left and right sections and looks up like a Chinese character 'ri',

or the outer side part of the barrel root (1B) is provided with a concave-convex structure (1B-j) (preferably convex ribs).

Further, the main body (1A) is similar to a front-back symmetrical platform body, the front-back side part of the main body (1A) is provided with two opposite sloping surfaces (1A-p),

the front and rear sloping surfaces (1A-p) are correspondingly provided with accommodating hole grooves (1A-c) which are opened towards the front side and the rear side respectively,

the retroreflector (4) is embedded into the accommodating hole grooves (1A-c) from top to bottom from the upper part of the opening and is encapsulated and fixed by the encapsulation glue solidified forming body (8),

or a downward assembling opening is arranged below the opening of the accommodating hole groove (1A-c), and the retroreflector (4) is embedded into the accommodating hole groove (1A-c) from bottom to top from the assembling opening and is encapsulated and fixed by an encapsulation glue curing forming body (8);

the left and right sides of the main body part (1A) are provided with mounting holes (1A-w);

the top circumference of the front and back side parts of the main body part (1A) is provided with concave parts (1A-x), the side wall of the transparent embedded upper shell (2) and the top circumference of the main body part (1A) are provided with light emergent channels of the LED luminous body (5) towards the front side direction and the back side direction above the concave parts (1A-x),

Thereby forming the convex solar luminous reflective spike with forward lateral and backward lateral reflecting functions and forward lateral and backward lateral luminous functions respectively.

Further, the main body part (1A) is of a similar platform structure which is symmetrical from front to back and is bilaterally symmetrical, a containing cavity (1A-q) which is similar to a cuboid and is provided with an upward opening is arranged at the middle part of the main body part (1A), concave parts (1A-x) are respectively arranged at the left side and the right side of the top circumference of the front side part and the rear side part of the main body part (1A), a slope surface (1A-p) with a concave shoulder part is formed, a containing hole groove (1A-c) with an opening which is narrow and wide in the whole width in the left-right direction is arranged on the slope surface (1A-p) with the concave shoulder part, a retroreflector (4) with a corresponding opening shape is arranged in the containing hole groove (1A-c),

the transparent embedded upper shell (2) is similar to rectangle in overlook, a separator is arranged in a containing cavity (2 q) of the transparent embedded upper shell (2) and is divided into a left partition, a middle partition and a right partition by the separator, wherein a photovoltaic device (6) is fixed in a large middle partition through a packaging adhesive curing forming body (8) and a positioning step, led luminophors (5) are arranged in small left and right partitions,

the composite embedded shell of the conjoined structure is embedded in the base shell (1) with relatively high structural strength through tolerance fit or interference fit, wherein front and rear side parts of the top of the transparent embedded upper shell (2) are exposed out of concave parts (1A-x) of front and rear side parts of the main body part (1A) to form side inclined surfaces, and a forward side light emergent channel and a backward side light emergent channel of the Led illuminant (5) are formed above the side wall of the part where the side inclined surfaces of the transparent embedded upper shell (2) are located and the concave parts (1A-x) of the front and rear side parts of the main body part (1A).

Further, a control and drive circuit (7 a) is arranged in the accommodating cavity (2 q) of the transparent embedded upper shell (2), the energy storage element (7B) is arranged in the barrel cavity (1B-q) of the barrel root (1B) and is connected with other electronic components into a circuit through leads with redundant lengths,

or the control and drive circuit (7 a) and the energy storage element (7B) are arranged in the barrel cavity (1B-q) of the barrel root (1B) and are connected with other electronic components into a circuit through leads with redundant lengths;

or the root embedded body (3B) of the downward bulge of the composite embedded bottom shell (3) is a hollow cylinder body with the outer diameter smaller than the inner diameter of the cylinder cavity (1B-q) of the cylinder body root (1B), or is a plurality of discrete cambered surface-shaped vertical walls with the outer diameter smaller than the inner diameter of the cylinder cavity (1B-q) of the cylinder body root (1B) and connected with the top, and at least the energy storage element (7B) is arranged in the root embedded body (3B) and is connected with other electronic components into a circuit through a wire with redundant length.

Preferably, the retroreflector (3) is a microprism retroreflector (called microprism lattice plate) which is embedded into the accommodating hole grooves (1A-c) and fixed by the encapsulation glue curing forming body (8);

or the retroreflector (3) is a lens type retroreflection multi-unit array combined molding sheet (also called a glass bead retroreflection array sheet) which is embedded into the accommodating hole grooves (1A-c) and fixed by the encapsulation glue curing molding body (8).

Further, an optical structure with one or more optical functions of reflection, refraction, transmission, condensation, diffusion and retroreflection is arranged on the transparent embedded upper shell (2), or an optical structure with one or more optical functions of reflection, refraction, transmission, condensation, diffusion and retroreflection is arranged in the transparent embedded upper shell (2), and the Led illuminant (5) and the transparent embedded upper shell (2) and the optical structure on the Led illuminant form a light emergent matching structure;

or the Led illuminant (5) is provided with an optical structure with one or more optical functions of reflection, refraction, transmission, condensation, diffusion and retroreflection, and the Led illuminant (5) and the optical structure on the Led illuminant form a light emergent matching structure.

Further, the top surface of the transparent embedded upper shell (2) is provided with an anti-slip structure,

or an air layer is arranged between the top shell of the transparent embedded upper shell (2) and the photovoltaic device (6).

Further, the control and driving circuit (7 a) is a control and driving circuit having a function of controlling the Led light emitter (5) to emit light in a normal light, or to strobe at a certain period or duty ratio, or to emit light in a time sequence, or to emit light in the above-described combination mode;

or the circuit and the electronic components (7) thereof comprise a wireless transceiver module or an intelligent communication processing module or a sensor.

Drawings

Figure 1 is a schematic view of the structure of section A-A (figure 2) of the present utility model,

figure 2 is a schematic top view partial perspective structure of a first embodiment of the present utility model (the dashed single arrow indicates the light exit main direction of Led and the dashed single arrow double arrow indicates the main angle of retroreflection by the retroreflector),

figure 3 is a schematic view of a bottom view of a first embodiment of the present utility model,

FIG. 4 is a schematic perspective view of a base shell according to a first embodiment of the present utility model,

figure 5 is a schematic diagram showing a turnover perspective structure of a transparent embedded upper housing according to a first embodiment of the present utility model,

figure 6 is a schematic view of an explosive structure and an assembled structure according to a first embodiment of the present utility model,

fig. 7 is a schematic view of a partial perspective structure in a top view (the dotted single arrow indicates the main direction of light emission from Led and the dotted single arrow double arrow indicates the main angle of retroreflection by retroreflectors) of a second embodiment of the present utility model,

figure 8 is a schematic bottom view of a second embodiment of the present utility model,

FIG. 9 is a schematic top view of a base shell according to a second embodiment of the present utility model,

figure 10 is a schematic diagram of an explosive structure and an assembled structure of a second embodiment of the utility model,

fig. 11 is a schematic view of a top partial perspective structure of a third embodiment of the present utility model (a dotted single arrow indicates a light-outgoing main direction of Led and a dotted single arrow double arrow indicates a main angle of retroreflection by a retroreflector),

Figure 12 is a schematic bottom view of a third embodiment of the present utility model,

figure 13 is a schematic view of an explosive structure and an assembled structure of a third embodiment of the present utility model,

figure 14 is a schematic view of a top partial perspective structure of another embodiment of example three of the present utility model (dashed single arrow indicates the main direction of light exit of Led and dashed single arrow double arrow indicates the main angle of retroreflection by the retroreflector),

figure 15 is a schematic view of an explosive structure and an assembled structure of another embodiment of example three of the present utility model,

fig. 16 is a schematic view of a top-view partial perspective structure of a fourth embodiment of the present utility model (a dotted single-arrow indicates a light-outgoing main direction of Led and a dotted single-arrow double-arrow indicates a main angle of retroreflection by a retroreflector),

fig. 17 is a schematic diagram of an explosive structure and an assembled structure according to a fourth embodiment of the present utility model.

Detailed Description

Embodiments of the present utility model are described with reference to the accompanying drawings.

Example 1

A protruding solar luminous reflecting spike comprises a base shell (110), a transparent embedded upper shell (120), a composite embedded bottom shell (130), a retroreflector (140), a Led illuminant (150), a photovoltaic device (160), a circuit and an electronic component (170) thereof, and a packaging glue curing forming body (180), wherein the packaging glue curing forming body is shown in figures 2-6.

The base shell (110) is an aluminum alloy casting processing base shell formed by connecting a main body part (110A) and a barrel root part (110B) at the bottom of the main body part,

wherein, the front and rear side parts of the main body part (110A) are provided with opposite sloping surfaces (110A-p) with a horizontal inclination angle of 30-38 degrees, the left and right side parts are outwards protruded to form cambered surfaces, which are similar to hollow flat table bodies,

the middle part of the main body part (110A) is provided with a cuboid-like containing cavity (110A-q) with an upward opening, a stepped inner ring (110A-t) is arranged on the side wall of the containing cavity (110A-q), a sunk enclosure type glue containing groove (110A-a) is arranged on the stepped inner ring (110A-t),

the left and right sides of the top circumference of the front and rear side parts of the main body part (110A) are respectively provided with a concave part (110A-x), so that sloping surfaces (110A-p) with concave shoulders are respectively formed on the front and rear side parts of the main body part, the front and rear sloping surfaces (110A-p) are correspondingly provided with containing hole grooves (110A-c) which are provided with convex-shaped openings towards the front side and the rear side respectively,

the accommodating hole grooves (110A-c) are internally provided with a plurality of longitudinal structure reinforcing barriers (110A-g), the retroreflector (140) is a microprism retroreflector with a corresponding opening shape, the retroreflector is embedded into the accommodating hole grooves (110A-c) from top to bottom from the opening and is encapsulated and fixed by an encapsulation glue curing forming body (180), the retroreflector (140) can also adopt a glass bead reflecting array sheet (not shown) with a reflecting angle, the left side part and the right side part of the main body part (110A) are provided with mounting hole sites (110A-w) for being mounted and fixed on a road surface,

The middle part of the flat bottom surface of the main body part (110A) is provided with a barrel root (110B) which is downwards convex, the outer side part of the barrel root is provided with a vertical convex rib (110B-j), the barrel root (110B) is implanted into a road surface during installation, the barrel root (110B) is provided with a circular barrel cavity (110B-q) with an upper opening and a lower opening and is communicated with the accommodating cavity (110A-q) above, the rest part of the flat bottom surface of the main body part (110A) is provided with a through glue filling exhaust hole I (110A-k),

the transparent embedded upper shell (120) is a cavity-shaped shell which is formed by PC injection molding and provided with a downward opening containing cavity (120 q) and has a plane top surface and is wholly similar to a cuboid, the top periphery of the transparent embedded upper shell (120) is outwards protruded to form an outer peripheral side pressing part (120 y) corresponding to a stepped inner ring (110A-t) of the main body part (110A), the bottom surface of the side pressing part (120 y) is provided with a lower convex surrounding rib (120 w) corresponding to a glue containing groove (110A-a) of the stepped inner ring (110A-t), the bottom of the side wall of the transparent embedded upper shell (120) is provided with a hot melt composite convex rib (120 r), a partition body is arranged in the containing cavity (120 q) of the transparent embedded upper shell (120) and is partitioned into a left partition area, a middle partition area and a right partition area, a large partition area positioned in the middle is fixedly provided with a solar photovoltaic panel serving as a photovoltaic device (160) through a packaging glue curing forming body (180) and a positioning step, the small partition areas positioned at the left side and the right side are provided with V-shaped grooves, the V-shaped grooves are fixedly arranged on the bottom surface of the bottom side of the side pressing part, the transparent embedded upper shell (120) are fixedly provided with a driving circuit (150) and serve as a square photovoltaic panel through the positioning bead, the driving circuit (150) and the driving circuit (150) is fixedly arranged in the side of the LED panel,

The composite embedded bottom shell (130) is formed by ABS injection molding, a bottom cover with a root is formed by connecting a bottom cover (130A) and a hollow barrel-shaped root embedded body (130B) with a lower bulge arranged in the middle of the bottom and an outer diameter smaller than the inner diameter of a barrel cavity (110B-q) of a barrel root (110B), a hot-melt composite surrounding edge (130 r) corresponding to a hot-melt composite convex rib (120 r) on the transparent embedded upper shell (120) is arranged at the edge part of the bottom cover (130A) of the composite embedded bottom shell (130), a glue filling exhaust hole II (130 k) corresponding to a glue filling exhaust hole I (110A-k) is arranged on the bottom cover (130A) of the composite embedded bottom shell (130),

the method comprises the steps of compounding a hot-melt compound convex rib (120 r) at the bottom of the side wall of a transparent embedded upper shell (120) on a hot-melt compound surrounding edge (130 r) of a bottom shell (130) by utilizing an ultrasonic plastic welding process, so that the compound embedded bottom shell (130) is combined at the bottom of the transparent embedded upper shell (120) to form a box-shaped and connected compound embedded shell which is relatively small in structural strength and is provided with a hollow cylinder-shaped root embedded body (130B) at the bottom, the LED luminous body (150), a photovoltaic device (160) and a driving and controlling circuit (170 a) are pre-packaged in the compound embedded shell, and then pouring, solidifying and forming the compound embedded shell from a glue pouring exhaust hole II (130 k) at the bottom of the compound embedded bottom shell (130) by using epoxy packaging glue.

Dripping organic silicon packaging adhesive or polyurethane packaging adhesive into a surrounding type adhesive containing groove (110A-a) of the stepped inner ring (110A-t), embedding a composite embedded shell with a connected structure into a containing cavity (110A-q) of a base shell (110) with relatively high structural strength from top to bottom through tolerance fit, embedding a hollow barrel-shaped root embedded body (130B) of a composite embedded bottom shell (130) into a barrel cavity (110B-q) of a barrel root (110B) to form a sleeve structure,

the transparent top shell and the top periphery of the transparent embedded upper shell (120) are embedded to form an embedded bearing plane, the edge pressing part (120 y) of the transparent embedded upper shell (120) is pressed on the stepped inner ring (110A-t) of the main body part (110A), the lower convex surrounding rib (120 w) on the bottom surface of the edge pressing part (120 y) is embedded into the glue containing groove (110A-a) of the stepped inner ring (110A-t), so that the organic silicon packaging glue is extruded between the stepped inner ring (110A-t) and the edge pressing part (120 y), the glue extruding seam between the transparent embedded upper shell (120) and the side wall part of the main body part (110A) is solidified to serve as a packaging glue solidified forming body (180) (to form an upper waterproof sealing layer), the partial area of the front side and the rear side part of the top of the transparent embedded upper shell (120) is exposed out from the concave part (110A-x) of the front and rear side part of the main body part (110A-t) to form a side inclined surface, the side wall of the inclined surface of the side part of the transparent embedded upper shell (120) is extruded between the stepped inner ring (110A-t) and the side part of the concave part (110A) of the front side part (150) to the front side of the front side part (110A) and the front side of the light emitting channel (150 side to the front side face to the front side of the rear part (110A),

The lithium battery is used as an energy storage element (170B) to be buried in a barrel cavity of a sleeve structure, and is connected with a Led luminophor (150), a photovoltaic device (160) and a control and drive circuit (170A) in a containing cavity (120 q) of a transparent embedded upper shell (120) through a wire with redundant length to form a circuit, a first glue filling exhaust hole (110A-k) on a flat bottom of a main body part (110A), a second glue filling exhaust hole (130 k) at the bottom of a composite embedded bottom shell (130) are used for filling a white epoxy packaging glue in a backward-filling glue joint between the composite embedded shell and a base shell (110) in a solidifying mode, and then a lower opening of a barrel root (110B) is used for filling an organosilicon packaging glue in the backward-filling glue joint between the composite embedded shell and the base shell (110) in a solidifying mode (forming a lower waterproof sealing layer), so that the main body part is similar to a flat table body, and the bottom is provided with a protruding solar luminous reflecting spike with the barrel root.

During installation, holes are punched on the pavement, and then the root parts of the cylinder bodies of the spikes are embedded and fixed in the punched holes through structural adhesive, so that the bottom surfaces of the main body parts of the spikes are approximately flush with the pavement.

The raised solar luminous reflective spike has stronger compression resistance and impact resistance to vehicles, is not easy to cause loosening of structures due to external force impact, has more excellent waterproof performance and longer service life, is particularly suitable for heavy-duty vehicles and road sections with more overload vehicles, and has good luminous and reflective properties.

Example two

A protruding solar luminous reflecting spike comprises a base shell (210), a transparent embedded upper shell (220), a composite embedded bottom shell (230), a retroreflector (240), a Led illuminant (250), a photovoltaic device (260), a circuit and electronic components (270) thereof, and a packaging glue curing forming body (280), wherein the packaging glue curing forming body is shown in figures 7-10.

The base shell (210) is a cast aluminum forming base shell formed by connecting a main body part (210A) and a barrel root part (210B) at the bottom of the main body part,

wherein, the front and rear side parts of the main body part (210A) are provided with opposite sloping surfaces (210A-p) with a horizontal inclination angle of 32 degrees, the left and right side parts are outwards protruded to form cambered surfaces, which are similar to hollow flat table bodies,

the middle part of the main body part (210A) is provided with a cuboid-like containing cavity (210A-q) with an upward opening, a stepped inner ring (210A-t) is arranged on the side wall of the containing cavity (210A-q), a sunk enclosure type glue containing groove (210A-a) is arranged on the stepped inner ring (210A-t),

the left and right sides of the top circumference of the front and rear sides of the main body part (210A) are respectively provided with a concave part (210A-x), thereby forming shoulder parts with concave slope surfaces (210A-p) at the front and rear sides of the main body part, the front and rear slope surfaces (210A-p) are respectively provided with a containing hole groove (210A-c) which is opened towards the front side and the rear side correspondingly, the central part of the opening is provided with a longitudinal structure reinforcing baffle (210A-g) and divides the containing hole groove (210A-c) into left and right subareas, the left and right subareas of the containing hole groove (210A-c) are provided with downward assembling openings below the left and right subareas, the retroreflector (240) is a microprism retroreflector with a corresponding shape, the assembling openings are embedded into the containing hole groove (210A-c) from bottom to top, the left and right sides of the main body part (210A) are provided with installing holes (210A-w) for installing and fixing to the road surface, the root part (210A) of the bottom part (210A) is provided with a bottom surface (210B) and a bottom part (210) is provided with a round bottom part (210) and a bottom part (210) is provided with a bottom part) which is provided with a round bottom part (210) and a bottom part (210) is provided with a bottom part) is connected with a cylinder body (q) and a bottom part (210) is provided with a bottom part) is arranged,

The transparent embedded upper shell (220) is a cavity-shaped shell which is formed by PC injection molding, is provided with a containing cavity (220 q) with a downward opening, has a plane top surface and is wholly similar to a cuboid, the periphery of the top of the transparent embedded upper shell (220) is outwards protruded to form a peripheral edge pressing part (220 y) corresponding to a stepped inner ring (210A-t) of the main body part (210A), the bottom surface of the edge pressing part (220 y) is provided with a lower protruding surrounding rib (220 w) corresponding to a glue containing groove (210A-a) of the stepped inner ring (210A-t), the bottom of the side wall of the transparent embedded upper shell (220) is provided with a hot melting composite structure (220 r), a partition body is arranged in a containing cavity (220 q) of the transparent embedded upper shell (220) and is divided into left, middle and right 3 partitions by the partition body, wherein a solar photovoltaic panel serving as a photovoltaic device (260) is fixed in a large partition positioned in the middle through a packaging adhesive curing forming body (280) and a positioning step, a V-shaped groove is arranged on the inner top wall of a small partition positioned at the left side and the right side, a lamp panel fixed with straw hat lamp beads through clamping grooves and adhesive at the lower part of the V-shaped groove serves as a Led luminous body (250), a square driving and control circuit board serves as a driving and control circuit (270A) and is fixed in the containing cavity (220 q) below the solar photovoltaic panel through the packaging adhesive curing forming body (280) and the positioning step,

The composite embedded bottom shell (230) is formed by white ABS injection molding, a bottom cover (230A) and two opposite vertical cambered surfaces of a barrel cavity (210B-q) with the bottom middle part provided with a lower bulge and the outer diameter smaller than the inner diameter of the barrel root (210B) serve as a bottom cover with a root formed by connecting root embedded bodies (230B), the edge part of the bottom cover (230A) of the composite embedded bottom shell (230) is provided with a hot-melt composite surrounding edge (230 r) corresponding to a hot-melt composite convex rib (220 r) on the transparent embedded upper shell (220), the bottom cover (230A) of the composite embedded bottom shell (230) is provided with a glue filling exhaust hole II (230 k) corresponding to a glue filling exhaust hole I (210A-k),

the method comprises the steps of compounding a hot-melt compound convex rib (220 r) at the bottom of the side wall of a transparent embedded upper shell (220) on a hot-melt compound surrounding edge (230 r) of a bottom shell (230) by utilizing an ultrasonic plastic welding process, so that the compound embedded bottom shell (230) is combined at the bottom of the transparent embedded upper shell (220) to form a box-shaped and integrated compound embedded shell which is relatively small in structural strength and is provided with a vertical cambered surface root embedded body (230B) with two opposite leaves at the bottom, the Led luminous body (250), a photovoltaic device (260) and a driving and controlling circuit (270 a) are pre-packaged in the compound embedded shell, and then pouring, solidifying and forming the compound embedded shell from a glue pouring exhaust hole II (230 k) at the bottom of the compound embedded bottom shell (230) by using epoxy packaging glue.

The organic silicon packaging adhesive is instilled in the enclosing type adhesive containing groove (210A-a) of the stepped inner ring (210A-t), the composite embedded shell with a conjoined structure is embedded in the containing cavity (210A-q) of the base shell (210) with relatively high structural strength from top to bottom through tolerance fit, the root embedded body (230B) of the composite embedded bottom shell (230) is embedded in the barrel cavity (210B-q) of the barrel root (210B) to form a sleeve structure,

the transparent top shell and the top periphery of the transparent embedded upper shell (220) are embedded to form an embedded bearing plane, the edge pressing part (220 y) of the transparent embedded upper shell (220) is pressed on the stepped inner ring (210A-t) of the main body part (210A), the lower convex surrounding rib (220 w) on the bottom surface of the edge pressing part (220 y) is embedded into the glue containing groove (210A-a) of the stepped inner ring (210A-t), so that the organic silicon packaging glue is extruded between the stepped inner ring (210A-t) and the edge pressing part (220 y), the glue extruding seam between the transparent embedded upper shell (220) and the side wall part of the main body part (210A) is solidified to serve as a packaging glue solidified forming body (280) (to form an upper waterproof sealing layer), the partial area of the front side and the rear side part of the top of the transparent embedded upper shell (220) is exposed out from the concave part (210A-x) of the front and rear side part of the main body part (210A) to form a side inclined surface, the side wall of the inclined surface of the side part of the transparent embedded upper shell (220) is extruded between the stepped inner ring (210A-t) and the side part of the side surface of the main body part (210A) to form a light emitting channel (250) towards the front side and the rear side of the front side of the light emitting part (210A),

The lithium battery is used as an energy storage element (270B) to be buried in a barrel cavity of a sleeve structure, and is connected with a Led luminophor (250), a photovoltaic device (260) and a control and drive circuit (270A) in a containing cavity (220 q) of a transparent embedded upper shell (220) through a lead with redundant length to form a circuit, and the white epoxy encapsulation adhesive is poured into a pouring adhesive vent I (210A-k) on a flat bottom of a main body part (210A), a pouring adhesive vent II (230 k) at the bottom of a composite embedded bottom shell (230) and is enabled to permeate into a pouring adhesive joint between the composite embedded shell and a base shell (210) to be cured and formed, and then the white epoxy encapsulation adhesive is poured into a lower opening of a barrel root (210B) and is enabled to permeate into the rest pouring adhesive joint between the composite embedded shell and the base shell (210) to be cured and formed (form a lower waterproof sealing layer), so that the convex solar luminous reflecting spike with the barrel root is similar to a flat platform body at the main body part.

Example III

A protruding solar luminous reflective spike comprises a base shell (310), a transparent embedded upper shell (320), a composite embedded bottom shell (330), a retroreflector (340), a Led illuminant (350), a photovoltaic device (360), a circuit and electronic components (370) thereof, and a packaging glue curing forming body (380), as shown in fig. 11-13.

The base shell (310) is a cast aluminum forming base shell formed by connecting a main body part (310A) and a barrel body root part (310B) at the bottom of the main body part,

wherein, the front and rear side parts of the main body part (310A) are provided with opposite sloping surfaces (310A-p) with a horizontal inclination angle of 33 degrees, the left and right side parts are outwards protruded to enable the whole body to be similar to a hollow flat table body with an octagonal top view,

the middle part of the main body part (310A) is provided with a cuboid-like containing cavity (310A-q) with an upward opening, the side wall of the containing cavity (310A-q) is provided with a step-shaped inner ring (310A-t), the step-shaped inner ring (310A-t) is provided with a sunk enclosure type glue containing groove (310A-a),

the left and right sides of the top circumference of the front and rear side parts of the main body part (310A) are respectively provided with a concave part (310A-x), so that sloping surfaces (310A-p) with concave shoulders are respectively formed on the front and rear side parts of the main body part, the front and rear sloping surfaces (310A-p) are correspondingly provided with containing hole grooves (310A-c) with openings towards the front side and the rear side respectively, two longitudinally structural reinforcing barriers (310A-g) which are bilaterally symmetrical are arranged in the openings, the containing hole grooves (310A-c) are divided into a left partition, a middle partition and a right partition,

As shown in fig. 12 and 13, a downward assembling opening is arranged below the convex or rectangular opening of the partition in the accommodating hole groove (310A-c), the retroreflector (340) is a microprism retroreflector with a corresponding shape (convex or rectangular), and the retroreflector is embedded into the accommodating hole groove (310A-c) from bottom to top from the middle assembling opening and is fixed by encapsulation glue curing forming body (380); the long afterglow luminescent powder and liquid transparent epoxy resin are mixed in a mould and cured to prepare a long afterglow luminescent preformed sheet with opposite shape, which is used as a long afterglow luminescent body (390), is embedded into the accommodating hole grooves (310A-c) from the upper part of the square openings of the left and right partitions from top to bottom and is encapsulated and fixed by the encapsulation glue curing forming body (380), so that the spike also has the long afterglow luminescent function, and the left and right side parts of the main body part (310A) are provided with mounting holes (310A-w) for being mounted and fixed on a road surface.

As shown in fig. 14 and 15, the microprism type retroreflector with a relative shape (square) can be used as the retroreflector (340), and the retroreflector is embedded into the accommodating hole grooves (310A-c) from top to bottom from the upper part of the square openings of the left and right subareas, and is encapsulated and fixed by the encapsulation glue curing forming body (380), so that the spike has a large lateral reflecting area.

Further, the long afterglow luminescent sheet material can be used as a counter substrate plate at the bottom of the square microprism type retroreflector by ultrasonic heat sealing, and a sealed air layer is formed between the square microprism type retroreflector and the long afterglow luminescent sheet material, so that the retroreflection performance can be improved, and the long afterglow luminescent function can be increased.

The middle part of the flat bottom surface of the main body part (310A) is provided with a barrel root part (310B) which is downwards convex, the outer side part of the barrel root part is provided with a vertical convex rib (310B-j), the barrel root part (310B) is implanted into a road surface during installation, the barrel root part (310B) is provided with a circular barrel cavity (310B-q) with an upper opening and a lower opening and is communicated with the accommodating cavity (310A-q) above, the rest part of the flat bottom surface of the main body part (310A) is provided with a through glue filling exhaust hole I (310A-k),

the transparent embedded upper shell (320) is a cavity-shaped shell which is formed by PC injection molding, is provided with a downward opening containing cavity (320 q), has a plane top surface and is wholly similar to a cuboid, the periphery of the top of the transparent embedded upper shell (320) is outwards protruded to form a peripheral edge pressing part (320 y) corresponding to the stepped inner ring (310A-t) of the main body part (310A), the bottom surface of the edge pressing part (320 y) is provided with a lower protruding surrounding rib (320 w) corresponding to the glue containing groove (310A-a) of the stepped inner ring (310A-t), the bottom of the side wall of the transparent embedded upper shell (320) is provided with a hot melting composite structure (320 r), a partition body is arranged in a containing cavity (320 q) of the transparent embedded upper shell (320) and is divided into left, middle and right 3 partitions by the partition body, wherein a solar photovoltaic panel serving as a photovoltaic device (360) is fixed in a large middle partition through a packaging adhesive curing forming body (380) and a positioning step, a V-shaped groove is arranged on the inner top wall of a small partition positioned at the left side and the right side, a lamp panel with a straw hat lamp bead welded under the V-shaped groove is fixed in the lamp panel serving as a Led luminous body (350) through a clamping groove and an adhesive, a square driving and control circuit board serving as a driving and control circuit (370A) is fixed in the containing cavity (320 q) below the solar photovoltaic panel through the packaging adhesive curing forming body (380) and the positioning step,

The composite embedded bottom shell (330) is formed by white ABS injection molding, a bottom cover (330A) and two opposite vertical cambered surfaces of a barrel cavity (310B-q) with the bottom middle part provided with a lower bulge and the outer diameter smaller than the inner diameter of the barrel root (310B) serve as a bottom cover with a root part formed by connecting root embedded bodies (330B), the edge part of the bottom cover (330A) of the composite embedded bottom shell (330) is provided with a hot-melt composite surrounding edge (330 r) corresponding to a hot-melt composite convex rib (320 r) on the transparent embedded upper shell (320), the bottom cover (330A) of the composite embedded bottom shell (330) is provided with a glue filling exhaust hole II (330 k) corresponding to a glue filling exhaust hole I (310A-k),

the method comprises the steps of compounding a hot-melt compound convex rib (320 r) at the bottom of the side wall of a transparent embedded upper shell (320) on a hot-melt compound surrounding edge (330 r) of a bottom shell (330) by utilizing an ultrasonic plastic welding process, so that the compound embedded bottom shell (330) is combined at the bottom of the transparent embedded upper shell (320) to form a box-shaped and integrated compound embedded shell which is relatively small in structural strength and is provided with a vertical cambered surface root embedded body (330B) with two opposite leaves at the bottom, the Led luminous body (350), a photovoltaic device (360) and a driving and controlling circuit (370 a) are pre-packaged in the compound embedded shell, and then pouring, solidifying and forming the compound embedded shell from a glue pouring exhaust hole II (330 k) at the bottom of the compound embedded bottom shell (330) by using epoxy packaging glue.

The polyurethane packaging adhesive is instilled in the enclosing type adhesive containing groove (310A-a) of the stepped inner ring (310A-t), the composite embedded shell with a conjoined structure is embedded in the containing cavity (310A-q) of the base shell (310) with relatively higher structural strength from top to bottom through tolerance fit, the root embedded body (330B) of the composite embedded bottom shell (330) is embedded in the barrel cavity (310B-q) of the barrel root (310B) to form a sleeve structure,

the transparent top shell and the top periphery of the transparent embedded upper shell (320) are embedded to form an embedded bearing plane, the edge pressing part (320 y) of the transparent embedded upper shell (320) is pressed on the stepped inner ring (310A-t) of the main body part (310A), the lower convex surrounding rib (320 w) on the bottom surface of the edge pressing part (320 y) is embedded into the glue containing groove (310A-a) of the stepped inner ring (310A-t), so that polyurethane packaging glue is extruded between the stepped inner ring (310A-t) and the edge pressing part (320 y), the glue extruding seam between the transparent embedded upper shell (320) and the side wall part of the main body part (310A) is used as a packaging glue solidified forming body (380) (forming an upper waterproof sealing layer), the partial area on the front side and the rear side of the top of the transparent embedded upper shell (320) is exposed out to form a side inclined surface from the concave part (310A-x) on the front and the rear side of the main body part (310A), and the side surface of the side inclined surface of the transparent embedded upper shell (320) is extruded between the side wall of the stepped inner ring (310A-t) and the concave part (310A) on the front and the rear side of the front side of the light emitting part (350 d) on the side of the front side of the transparent embedded upper shell (310A),

The lithium battery is used as an energy storage element (370B) to be buried in a barrel cavity of a sleeve structure, and is connected with a Led luminophor (350), a photovoltaic device (360) and a control and drive circuit (370A) in a containing cavity (320 q) of a transparent embedded upper shell (320) through a wire with redundant length to form a circuit, a first glue filling exhaust hole (310A-k) on a flat bottom of a main body part (310A), a second glue filling exhaust hole (330 k) at the bottom of a composite embedded bottom shell (330) are used for filling a white epoxy encapsulation adhesive in a backward-filling glue joint between the composite embedded shell and a base shell (310) in a solidifying mode, and then a lower opening of a barrel root (310B) is used for filling an organosilicon encapsulation adhesive in the backward-filling glue joint between the composite embedded shell and the base shell (310) in a solidifying mode (forming a lower waterproof sealing layer), so that the main body part is similar to a flat table body, and the bottom is provided with a protruding solar luminous reflecting spike with the barrel root.

Example IV

A protruding solar luminous reflecting spike comprises a base shell (410), a transparent embedded upper shell (420), a composite embedded bottom shell (430), a retroreflector (440), a Led illuminant (450), a photovoltaic device (460), a circuit and electronic components (470) thereof, and a packaging glue curing forming body (480), as shown in fig. 16-17.

The base shell (410) is a cast aluminum forming base shell formed by connecting a main body part (410A) and a barrel root part (410B) at the bottom of the main body part,

wherein, the front and rear side parts of the main body part (410A) are provided with opposite sloping surfaces (410A-p) with a horizontal inclination angle of 35 degrees, the left and right side parts are outwards protruded to form cambered surfaces, which are similar to hollow flat table bodies,

the middle part of the main body part (410A) is provided with a cuboid-like containing cavity (410A-q) with an upward opening, the side wall of the containing cavity (410A-q) is provided with a step-shaped inner ring (410A-t), the step-shaped inner ring (410A-t) is provided with a sunk enclosure type glue containing groove (410A-a),

the middle part of the front and rear sloping surfaces (410A-p) of the main body part (410A) is respectively provided with a large rectangular accommodating hole groove (410A-c) with openings towards the front side and the rear side, a downward assembling opening is arranged below the opening of the rectangular accommodating hole groove (410A-c), the retroreflector (440) is a microprism retroreflector with a corresponding shape (convex shape), the middle assembling opening is embedded into the rectangular accommodating hole groove (410A-c) from bottom to top and is encapsulated and fixed by an encapsulation glue solidified forming body (480), the retroreflector (440) can also adopt a glass bead reflecting array sheet (not shown) with a reflecting angle, the left and right sides of the front and rear sloping surfaces (410A-p) of the main body part (410A) are respectively provided with smaller square containing hole grooves (410A-c) with openings towards the front side and towards the rear side, downward assembling openings are arranged below the openings of the square containing hole grooves (410A-c), the lamp panel with the transparent lamp shell and welded with straw hat lamp beads is used as a Led luminous body (450), the assembling openings below the left and right openings are embedded into the rectangular containing hole grooves (410A-c) from bottom to top and are encapsulated and fixed through an encapsulation glue solidified forming body (480), and lateral light emergent channels with the Led luminous body (450) are formed by penetrating out the outer walls of the transparent lamp shell through the left and right square containing hole grooves (410A-c) (serving as light emergent holes),

The Led luminary (450) is connected with a control and drive circuit (470A) in the accommodating cavity (420 q) of the transparent embedded upper shell (420) through a wire with redundant length, the left and right sides of the main body part (410A) are provided with mounting holes (410A-w) for mounting and fixing on the road surface,

the middle part of the flat bottom surface of the main body part (410A) is provided with a barrel root (410B) which is downwards convex, the outer side part of the barrel root is provided with a vertical convex rib (410B-j), the barrel root (410B) is implanted into a road surface during installation, the barrel root (410B) is provided with a circular barrel cavity (410B-q) with an upper opening and a lower opening and is communicated with the accommodating cavity (410A-q) above, the rest part of the flat bottom surface of the main body part (410A) is provided with a through glue filling exhaust hole I (410A-k),

the transparent embedded upper shell (420) is a cavity-shaped shell which is formed by PC injection molding, is provided with a containing cavity (420 q) with a downward opening, has a plane top surface and is integrally similar to a cuboid, the side wall of the middle part of the containing cavity (420 q) of the transparent embedded upper shell (420) is inwards concave to form a supporting vertical wall with a structure reinforcing effect, so that the containing cavity (420 q) looks like a hollow I shape,

the top periphery of the transparent embedded upper shell (420) is outwards protruded to form a peripheral edge pressing part (420 y) corresponding to the stepped inner ring (410A-t) of the main body part (410A), the bottom surface of the edge pressing part (420 y) is provided with a lower convex surrounding rib (420 w) corresponding to the glue containing groove (410A-a) of the stepped inner ring (410A-t), the bottom of the side wall of the transparent embedded upper shell (420) is provided with a hot melt composite structure (420 r),

The solar photovoltaic panel which is similar to an I shape in overlook and corresponds to the accommodating cavity (420 q) is formed by the middle part being concaved inwards through the encapsulation glue curing forming body (480) and the positioning step in the accommodating cavity (420 q) of the transparent embedded upper shell (420) to serve as a photovoltaic device (460), the square driving and controlling circuit board serves as a driving and controlling circuit (470 a) and is fixed in the accommodating cavity (420 q) below the solar photovoltaic panel through the encapsulation glue curing forming body (480) and the positioning step,

the composite embedded bottom shell (430) is formed by injection molding of white ABS, a bottom cover (430A) and two opposite vertical cambered surfaces of a barrel cavity (410B-q) with the bottom middle part being provided with a downward bulge and the outer diameter smaller than the inner diameter of the barrel root (410B) serve as a bottom cover with the root embedded body (430B) formed by connecting together, the middle part of the bottom cover (430A) is concaved inwards to form a hollow I-shaped-like overlooking corresponding to the accommodating cavity (420 q), the edge part of the bottom cover (430A) of the composite embedded bottom shell (430) is provided with a hot-melt composite surrounding edge (430 r) corresponding to a hot-melt composite convex rib (420 r) on the transparent embedded upper shell (420), the bottom cover (430A) of the composite embedded bottom shell (430) is provided with a glue filling exhaust hole II (430 k) corresponding to a glue filling exhaust hole I (410A-k),

The method comprises the steps of compounding a hot-melt compound convex rib (420 r) at the bottom of the side wall of a transparent embedded upper shell (420) on a hot-melt compound surrounding edge (430 r) of a bottom shell (430) by utilizing an ultrasonic plastic welding process, so that the compound embedded bottom shell (430) is combined at the bottom of the transparent embedded upper shell (420) to form a box-shaped and integrated compound embedded shell which is relatively small in structural strength and is provided with a vertical cambered surface root embedded body (430B) with two opposite leaves at the bottom, the Led luminous body (450), a photovoltaic device (460) and a driving and controlling circuit (470 a) are pre-packaged in the compound embedded shell, and then pouring, solidifying and forming the compound embedded shell from a glue pouring exhaust hole II (430 k) at the bottom of the compound embedded bottom shell (430) by using epoxy packaging glue.

The side walls of the accommodating cavities (410A-q) of the main body part (410A) are concave to form supporting vertical walls with a structural reinforcing effect, so that the accommodating cavities (410A-q) are similar to a hollow I shape in overlooking, and the transparent embedded upper shell (420), the photovoltaic device (460) and the bottom cover (430A) are made into shapes corresponding to the hollow I shape, thereby facilitating assembly.

The organic silicon packaging adhesive is instilled in the enclosure type adhesive containing groove (410A-a) of the stepped inner ring (410A-t), the composite embedded shell with a conjoined structure is embedded in the containing cavity (410A-q) of the base shell (410) with relatively higher structural strength from top to bottom through tolerance fit, the root embedded body (130B) of the composite embedded bottom shell (430) is embedded in the barrel cavity (410B-q) of the barrel root (410B) to form a sleeve structure,

The transparent top shell and the top periphery of the transparent embedded upper shell (420) are embedded to form an embedded pressure-bearing plane, a blank pressing part (420 y) of the transparent embedded upper shell (420) is pressed on a stepped inner ring (410A-t) of a main body part (410A), a lower convex surrounding rib (420 w) on the bottom surface of the blank pressing part (420 y) is embedded into a glue containing groove (410A-a) of the stepped inner ring (410A-t), so that organic silicon packaging glue is extruded between the stepped inner ring (410A-t) and the blank pressing part (420 y), a glue extruding seam between the transparent embedded upper shell (420) and the side wall part of the main body part (410A) is solidified and molded to serve as a packaging glue solidified molding body (480) (an upper waterproof sealing layer is formed),

the solar light-emitting reflector spike is characterized in that a lithium battery is used as an energy storage element (470B) buried in a barrel cavity of a sleeve structure and is connected with a photovoltaic device (460) and a control and drive circuit (470A) in a containing cavity (420 q) of a transparent embedded upper shell (420) through a wire with redundant length to form a circuit, white epoxy packaging glue is poured into a glue pouring vent I (410A-k) on a flat bottom of a main body part (410A) and a glue pouring vent II (430 k) at the bottom of a composite embedded bottom shell (430) to permeate into a glue pouring gap between the composite embedded shell and a base shell (410) for solidification molding, and then epoxy packaging glue is poured into a lower opening of a barrel root (410B) to permeate into other glue pouring gaps between the composite embedded shell and the base shell (410) for solidification molding (forming a lower waterproof sealing layer), so that the main body is similar to a flat platform body and a convex solar light-emitting reflector spike with the barrel root at the bottom.

The foregoing description is only a preferred embodiment of the present utility model and is not intended to limit the utility model, but various modifications, alterations, combinations, stacks, equivalents, etc. can be made within the spirit and principles of the utility model, or the application of the technology to the relevant and similar fields should be considered as being within the scope of the utility model.

Claims

1. A convex solar luminous reflective spike, which comprises a base shell (1), a transparent embedded upper shell (2), a composite embedded bottom shell (3), a retroreflector (4), a Led illuminant (5), a photovoltaic device (6), a circuit and an electronic component (7) thereof, and a packaging glue curing forming body (8),

the method is characterized in that: the base shell (1) is a shell structure which is formed by connecting a main body part (1A) and a barrel root part (1B) at the bottom of the main body part and has relatively high structural strength,

The main body part (1A) is a hollow flat shell with a vertical upper opening containing cavity (1A-q), the lower part of the main body part is large and small, the containing cavity (1A-q) is surrounded by a side wall part of the main body part (1A), the containing cavity (1A-q) is of a step cavity structure with a step-shaped inner ring (1A-t) on the inner side wall, the upper part of the side wall part is large and the lower part of the side wall part is small, the bottom wall part and the top wall part are transited through a slope (1A-p), the slope (1A-p) is provided with a containing hole groove (1A-c) with a lateral opening, a retroreflector (4) capable of reflecting light laterally is arranged in the containing hole groove (1A-c), the middle part of the bottom surface of the containing cavity (1A-q) is provided with a barrel root (1B) with a lower convex part, the barrel root (1B-q) is provided with a barrel cavity (1B-q) with a upper opening and a lower opening, the barrel root (1B-q) is communicated with the upper part of the cavity (1A-q),

the solar light-emitting light-reflecting spike comprises a transparent embedded upper shell (2), a LED light-emitting body (5), a photovoltaic device (6), a circuit and an electronic component (7) thereof, wherein the photovoltaic device (6) is arranged below a top shell of the transparent embedded upper shell (2), the LED light-emitting body (5) is arranged in a containing cavity (2 q) of the transparent embedded upper shell (2) or on a base shell (1), the circuit and the electronic component (7) thereof comprise a control and driving circuit (7 a) and an energy storage element (7B), the control and driving circuit (7 a) and the energy storage element (7B) are arranged in the containing cavity (2 q) of the transparent embedded upper shell (2) or/and a barrel cavity (1B-q) of the barrel root (1), and the LED light-emitting body (5), the photovoltaic device (6), the circuit and the electronic component (7) thereof are connected into a circuit and are packaged in a spike integral shell formed by a packaging glue curing forming body (8) in the composite embedded shell and the base shell (1).

2. The raised solar light reflecting spike of claim 1 wherein: the side wall bottom of the transparent embedded upper shell (2) is provided with an ultrasonic hot melt composite structure I (2 r), the edge part of a bottom cover (3A) of the composite embedded bottom shell (3) is provided with an ultrasonic hot melt composite structure II (3 r) corresponding to the ultrasonic hot melt composite structure I (2 r) on the transparent embedded upper shell (2), and the transparent embedded upper shell (2) is compounded with the composite embedded bottom shell (3) through the ultrasonic hot melt composite structure I (2 r), the ultrasonic hot melt composite structure II (3 r) to form a compound embedded shell with a conjoined structure.

3. The raised solar light reflecting spike of claim 1 wherein: the root embedded body (3B) of the downward bulge of the composite embedded bottom shell (3) is a hollow cylinder with the outer diameter smaller than the inner diameter of the cylinder cavity (1B-q) of the cylinder root (1B), or is a plurality of discrete arc-shaped vertical walls with the outer diameter smaller than the inner diameter of the cylinder cavity (1B-q) of the cylinder root (1B) and connected with the top, or is a downward bulge block or a downward bulge column with the outer diameter smaller than the inner diameter of the cylinder cavity (1B-q) of the cylinder root (1B); the root embedded body (3B) of the composite embedded bottom shell (3) is embedded in the barrel cavity (1B-q) of the barrel root (1B), and the structural package is formed by the package glue curing forming body (8); wherein, at least the energy storage element (7B) is arranged in the barrel cavity (1B-q) of the barrel root (1B) and is connected with other electronic components into a circuit.

4. The raised solar light reflecting spike of claim 1 wherein: the composite embedded shell is embedded in the accommodating cavity (1A-q) of the base shell (1) through tolerance fit or interference fit,

a backflow glue channel which is reversely filled by a lower opening of the barrel root (1B) is arranged between the composite embedded shell and the base shell (1), and a packaging glue curing forming body (8) is arranged in the backflow glue channel;

or the bottom surface of the main body part (1A) is provided with a through glue pouring vent hole I (1A-k), the bottom cover (3A) of the composite embedded bottom shell (3) is provided with a glue pouring vent hole II (3 k) corresponding to the glue pouring vent hole I (1A-k), a glue pouring channel which is reversely poured by a lower opening of the barrel root part (1B) and a glue pouring channel which is reversely poured by the glue pouring vent hole I (1A-k) and the glue pouring vent hole II (3 k) are arranged between the composite embedded shell and the base shell (1), and a packaging glue curing forming body (8) is arranged in the glue pouring channel.

5. The raised solar light reflecting spike of claim 1 wherein: the packaging glue curing forming body (8) is a waterproof composite packaging structure formed by packaging and curing packaging glue with two or more different components, or the packaging glue curing forming body (8) is a waterproof composite packaging structure formed by packaging and curing packaging glue with two or more different soft hardness, or the packaging glue curing forming body (8) is a waterproof composite packaging structure formed by packaging and curing packaging glue for two or more times,

6. The raised solar light reflecting spike of claim 1 wherein: the side wall of the accommodating cavity (1A-q) is provided with a concave-convex jogged structure I (1A-h), the side wall of the transparent embedded upper shell (2) is provided with a concave-convex jogged structure II (2 h) which is complementary and corresponding to the concave-convex jogged structure I,

or the stepped inner ring (1A-t) is provided with a sunk enclosure type glue containing groove (1A-a), the enclosure type glue containing groove (1A-a) is internally provided with a packaging glue curing forming body (8), the bottom surface of the edge pressing part (2 y) is provided with a lower convex enclosure rib (2 w) corresponding to the glue containing groove (1A-a) of the stepped inner ring (1A-t), a glue extruding groove or a glue extruding seam is arranged between the stepped inner ring (1A-t) and the peripheral edge pressing part and between the transparent embedded upper shell (2) and the side wall part of the main body part (1A), and the glue extruding groove or the glue extruding seam is internally provided with the packaging glue curing forming body (8).

7. The raised solar light reflecting spike of claim 1 wherein: the base shell (1) is of a metal casting structure or a metal forging structure, or the transparent embedded upper shell (2) is of a transparent injection structure, or the composite embedded bottom shell (3) is of an injection structure.

8. The raised solar light reflecting spike of claim 1 wherein: the opening of the accommodating hole groove (1A-c) is internally provided with a structure reinforcing baffle (1A-g) and divides the accommodating hole groove (1A-c), and the accommodating hole groove (1A-c) is internally provided with a retro-reflector (4) or is respectively provided with a retro-reflector (4) and a long afterglow illuminant (9);

9. The raised solar light reflecting spike of claim 1 wherein: the top of the side wall part of the main body part (1A) is provided with a concave part (1A-x), the local area of the top of the transparent embedded upper shell (2) is exposed from the concave part (1A-x) of the top of the main body part (1A) and forms a lateral light emergent channel of the Led illuminant (5) above the side wall of the transparent embedded upper shell (2) and the concave part (1A-x) of the top of the main body part (1A),

or the LED luminous body (5) is arranged in the accommodating hole groove (1A-c) on the slope (1A-p) of the main body part (1A) or behind the accommodating hole groove (1A-c) and forms a lateral light emergent channel of the LED luminous body (5) through the accommodating hole groove (1A-c), and the LED luminous body (5) is connected with a circuit in the accommodating cavity (2 q) of the transparent embedded upper shell (2) and an electronic component (7) thereof through a wire with redundant length.

10. The raised solar light reflecting spike of claim 1 wherein: the accommodating cavities (1A-q) of the main body part (1A) are similar to or approximate to rectangle in overlook,

or the side wall of the accommodating cavity (1A-q) of the main body part (1A) is concave to form a supporting body which can play a role in strengthening the structure, so that the accommodating cavity (1A-q) looks like a hollow I shape in overlook,

or the side wall of the accommodating cavity (2 q) of the transparent embedded upper shell (2) is concaved inwards to form a supporting body which can play a role in strengthening the structure, so that the accommodating cavity (2 q) looks like a hollow I shape in a bottom view,

or the accommodating cavity (1A-q) of the main body part (1A) is internally provided with a separator which can play a role in strengthening the structure and partitions the accommodating cavity (1A-q) so that the accommodating cavity (1A-q) looks like a Chinese character 'ri' in a overlook,

or a separation body with a structure strengthening effect is arranged in the accommodating cavity (2 q) of the transparent embedded upper shell (2) and the accommodating cavity (2 q) is partitioned, so that the accommodating cavity (2 q) looks like a Chinese character 'ri' shape in a bottom view,

or the outer side part of the barrel root (1B) is provided with a concave-convex structure (1B-j).

11. The raised solar light reflecting spike of claim 1 wherein: the main body part (1A) is similar to a front-back symmetrical platform body, the front side part and the back side part of the main body part (1A) are provided with two opposite sloping surfaces (1A-p),

12. The raised solar light reflecting spike of claim 1 wherein: the main body part (1A) is of a similar platform structure which is symmetrical from front to back and is bilaterally symmetrical, the middle part of the main body part (1A) is provided with a containing cavity (1A-q) which is similar to a cuboid and is provided with an upward opening, the left side and the right side of the top circumference of the front and rear sides of the main body part (1A) are respectively provided with a concave part (1A-x) to form a slope surface (1A-p) with a concave part, the slope surface (1A-p) with the concave part is provided with a containing hole groove (1A-c) which is provided with an opening and is narrow in the overall width in the left and right directions, the containing hole groove (1A-c) is internally provided with a retroreflector (4) which is corresponding to the opening shape, the transparent embedded upper shell (2) is similar to the rectangle in the overlook, the containing cavity (2 q) of the transparent embedded upper shell (2) is internally provided with a partition body and is divided into a left partition, a middle partition and a right partition are divided into 3 partitions by the partition body, the middle large partition is internally provided with a photovoltaic forming body (6) which is fixed by a packaging glue curing (8) and a positioning step, the left partition and the right partition body (5) are arranged on the two sides,

13. The raised solar light reflecting spike of claim 1 wherein: the control and drive circuit (7 a) is arranged in the accommodating cavity (2 q) of the transparent embedded upper shell (2), the energy storage element (7B) is arranged in the barrel cavity (1B-q) of the barrel root (1B) and is connected with other electronic components into a circuit through leads with redundant lengths,

14. The buried solar energy light emitting and reflecting spike of claim 1 wherein: the retroreflector (3) is a lens type retroreflector multi-unit array combined forming sheet which is embedded into the accommodating hole grooves (1A-c) and is fixed through the encapsulation glue curing forming body (8).

15. The raised solar light reflecting spike of claim 1 wherein: the transparent embedded upper shell (2) is provided with an optical structure with one or more optical functions of reflection, refraction, transmission, condensation, diffusion and retroreflection, or the transparent embedded upper shell (2) is internally provided with an optical structure with one or more optical functions of reflection, refraction, transmission, condensation, diffusion and retroreflection, and the Led illuminant (5) and the transparent embedded upper shell (2) and the optical structure on the Led illuminant form a light emergent matching structure;

16. The raised solar light reflecting spike of claim 1 wherein: the top surface of the transparent embedded upper shell (2) is provided with an anti-slip structure,

17. The raised solar light reflecting spike of claim 1 wherein: the control and driving circuit (7 a) is a control and driving circuit with the function of controlling the Led illuminant (5) to emit light in normal brightness, stroboscopic light in a certain period or duty ratio, or time sequence, or in the combined mode; or the circuit and the electronic components (7) thereof comprise a wireless transceiver module or an intelligent communication processing module or a sensor.